Electro- and Magneto-Mechanics of Soft Solids, Gebunden
Electro- and Magneto-Mechanics of Soft Solids
- Constitutive Modelling, Numerical Implementations, and Instabilities
- Publisher:
- Oscar Lopez-Pamies, Kostas Danas
- Publisher:
- Springer Nature Switzerland, 02/2024
- Binding:
- Gebunden, HC runder Rücken kaschiert
- Language:
- Englisch
- ISBN-13:
- 9783031483509
- Item number:
- 11782951
- Volume:
- 188 Pages
- Edition number:
- 2024
- Ausgabe:
- 2024
- Weight:
- 453 g
- Format:
- 241 x 160 mm
- Thickness:
- 16 mm
- Release date:
- 27.2.2024
- Note
-
Caution: Product is not in German language
Other releases of Electro- and Magneto-Mechanics of Soft Solids |
Price |
|---|---|
| Buch, Kartoniert / Broschiert, Englisch | EUR 153.32* |
Blurb
This book examines the electro- and magneto-mechanics of soft composite materials and structures, and focuses on magnetorheological elastomers (MREs) and dielectric elastomer composites (DECs), which are composite materials that comprise ferromagnetic and high-dielectric / conducting filler nano- and micro-particles embedded in a soft polymeric matrix. This gives rise to a coupled magneto- and electro-mechanical response at the macroscopic (order of millimeters and larger) scale when they are subjected to magneto- electro-mechanical external stimuli. While such MRE and DEC materials and devices can become unstable at some critical electro-magneto-mechanical loading, their response may be well controlled in the post-instability regime. Moreover, recent advances on the complete electro-magneto-mechanical coupling are presented. All those aforementioned features motivate the operation of these devices in this unstable region to obtain controlled pattern formation, soft robotic motion andartificial muscles, controllable band-gap acoustic and electromagnetic properties, energy harvesting as well as actively controlled stiffness (for cell-growth). The book contains four individual chapters covering work on the fundamentals (O. Lopez-Pamies) and the modeling (M. Gei) of electroactive solids, the modeling of magnetoactive solids (K. Danas), and the analysis of elastic instabilities (Y. Fu).